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Resistive timescale: Difference between revisions
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The resistive timescale is the typical time for the diffusion of a magnetic field into a resistive plasma. | The resistive timescale is the typical time for the diffusion of a magnetic field into a resistive plasma. | ||
Based on Faraday's Law, | Based on Faraday's Law, | ||
:<math>\frac{ | :<math>\frac{\partial \vec B}{\partial t} = -\vec \nabla \times \vec E,</math> | ||
Ohm's Law, | Ohm's Law, | ||
:<math>\vec E = \eta \vec j,</math> | :<math>\vec E = \eta \vec j,</math> | ||
| Line 7: | Line 7: | ||
:<math> \vec \nabla \times \vec B = \mu_0 \vec j,</math> | :<math> \vec \nabla \times \vec B = \mu_0 \vec j,</math> | ||
one immediately derives a diffusion type equation for the magnetic field: | one immediately derives a diffusion type equation for the magnetic field: | ||
:<math>\frac{ | :<math>\frac{\partial \vec B}{\partial t} = -\frac{\eta}{\mu_0} \vec \nabla \times \vec \nabla \times \vec B = \frac{\eta}{\mu_0} \nabla^2 \vec B,</math> | ||
since | since | ||
: <math>\vec \nabla \cdot \vec B = 0.</math> | : <math>\vec \nabla \cdot \vec B = 0.</math> | ||